Evolution of Technology

Joint Replacement

Joint replacement of the hand has continuously advanced as better implant materials have been developed. Metal hinge joints were initially developed, but were wrought with complications. Joint replacement today has two main categories: silicone and PyroCarbon implants.

Silicone implants are a single rubber piece that bridges the joint after removing the destroyed cartilage ends of the bone that is able to bend. This is beneficial because it has intrinsic stability because it is a single piece. However, risks are associated with increased stability such as implant fracture or loosening from too much force occurring on the implant-bone interface. This has long been the standard of care. Another more recent type of joint replacement is PyroCarbon implants.

PyroCarbon is a graphite-derived substance that has been shown to have excellent durability and compatibility within the human body. Additionally, it has similar strength characteristics to the bone, which helps in preventing abnormal forces between the bone-PyroCarbon interface. This results in improved longevity of the implants.

Studies have also shown that PyroCarbon that articulates with PyroCarbon has essentially no wear effect, even after 10 million cycles less than 1000th of an inch of wear was measured in the prosthesis. These implants, however, are not connected and rely on the body’s natural soft tissues to provide stability after replacement.

Evolution of Procedure

Joint Replacement

Joint fusion was the mainstay of treatment for hand arthritis for many years. In the early 1900s, however, surgeons started perform surgery to place tissue between the bone ends to prevent direct contact within the arthritic joint. This resulted in pain relief with preservation of joint motion with modest success.

More recently joint replacement has been developed. Joint replacement is the process of removing the diseased and damaged bone ends around a joint and replacing them with artificial prosthetics that can move. The keys to successful joint replacement include preserving motion and stability to the joint.